Calixapap : Calixarene-based Cluster of Acetaminophen as a Novel Antiradical Agent

In this paper, the synthesis and free-radical scavenging capacity of novel calix[4]arenebased cluster of paracetamol was reported. The phenolic structures of acetaminophen and calix[4]arene prompted us for designing a synthetic route for calix[4]arene-based cyclic tetramer of paracetamol. The present chalice-shaped cluster is the first example of calixarene/ acetaminophen hybrid and paracetamol can be considered as 1⁄4 of the synthetic cyclic tetramer. Free-radical scavenging tests were determined by the 2,2-diphenyl-1-picrylhydrazyl radical in methanol. The results of antiradical-testing showed the enhanced free-radical scavenging capacity (~ 10-fold) for the prepared chaliced-shaped cluster with respect to the corresponding single therapeutic drug unit (acetaminophen). It is maybe attributed to the multivalency, spatial preorganization, and synergistic effect of four impacted drug units in the cluster structure (clustering effect).


Introduction
Acetaminophen as known as paracetamol or acetyl-para-aminophenol (APAP) is one of the most popular and world-spread antipyretic and analgesic drug (pain-killer) with some other medical applications such as antiinflammatory, antirheumatic, anticancer, and antioxidant activities (1-3).Due to the phenolic structure (free hydroxyl group) of APAP, it is a potential antiradical for scavenging freeradicals such as 2,2-diphenyl-1-picrylhydrazyl radical (DPPH•) (3).
On the other hand, calixarenes are suitable structures for designing and developing of new drugs via clustering of the single drug units on them (4-9).So, in our continuous studies to the synthesis of new calixdrugs (9), we wish to report a novel calix[4]arene-based cluster for the presentation of APAP cyclic tetramer and its antiradical activity in comparison to APAP alone as reference drug.Based on calixarenes' nomenclature (9), the chaliced shape of APAP was innovatively named calixapap.

General
The melting points of all compounds were determined on a Philip Harris C4954718 apparatus without calibration.The IR spectra were measured in KBr disks on a Thermo Nicolet 610 Nexus FT-IR spectrometer.The 1 H NMR (300 MHz) and 13 C NMR (75 MHz) measurements were performed on a Bruker AM-300 spectrometer in DMSO-d 6 using TMS as the internal reference.Elemental analyses were carried out on a PerkinElmer 240c analyzer.Mass spectra were recorded on a JEOL-JMS 600 (FAB MS) instrument.All chemicals were purchased from Merck and Aldrich (Tehran, Iran) and used as received.

Chemistry
Compound 1 was prepared by the previously reported method as white powder (10).

arene (2)
A mixture of compound 1 in 1,3-alternate conformer (1 g), AlCl 3 (1.35g) in PhNO 2 (30 mL) was stirred under N 2 atmosphere at room temperature for 2 h and then stirred for 6 h at 65 ˚C.The reaction mixture was cooled to 0 ˚C and mixed with HCl 10% (15 mL) at 0 ˚C.The organic layer was separated, washed with water and then dried over MgSO 4 .After evaporation of the organic solvent, the residue was refluxed in acetone (10 mL) for 0.5 h followed by cooling to room temperature for sedimentation of white solid.Crystallization from CHCl 3 afforded compound 2 as white crystals.

Synthesis of 1,3-alternate Calixapap (3)
A mixture of compound 2 (0.5 g) and fuming sulfuric acid (1.5 mL) was stirred under N 2 atmosphere at room temperature and then sodium azide (0.27 g) was added slowly over 0.5 h at the same conditions.The mixture was stirred for 6 h at 60 ˚C under N 2 atmosphere.The reaction mixture was then cooled to 0 ˚C and stirred (0.5 h) for sedimentation.The residue was filtered and washed with water to give white solid.Crystallization from DMF gave compound 3 as white crystals.

Results and Discussion
The synthetic pathway to calixapap is depicted in Scheme 1.The synthetic route included the conversion of compound 1 to 2 by the Fries rearrangement in the presence of

Results and Discussion
The synthetic pathway to calixapap is depicted in Scheme 1.The synthetic route included the conversion of compound 1 to 2 by the Fries rearrangement in the presence of nitrobenzene as solvent and AlCl3 as catalyst.Calixapap as the final product was obtained by the insertion of four nitrogen atoms to compound 2 in the presence of oleum/AcOH via using NaN3.Because of the 1, 3-alternate conformation of compound 1, compounds 2, and 3 (as its derivatives) are in 1,3alternate conformation, too.It can be confirmed by chemical shifts (~ 37 ppm) of the carbons of the methylene bridges in their 13 C NMR spectra and the singlet pattern for protons of the methylene bridges in their 1 H NMR spectra.Scheme 1. Synthetic route of calixapap.Scheme 1. Synthetic route of calixapap.

Calixarene-based cluster of acetaminophen
Delnavaz Shahr A et al. / IJPR (2019), 18 (1): 30-33 nitrobenzene as solvent and AlCl 3 as catalyst.Calixapap as the final product was obtained by the insertion of four nitrogen atoms to compound 2 in the presence of oleum/AcOH via using NaN 3 .Because of the 1, 3-alternate conformation of compound 1, compounds 2, and 3 (as its derivatives) are in 1,3-alternate conformation, too.It can be confirmed by chemical shifts (~ 37 ppm) of the carbons of the methylene bridges in their 13 C NMR spectra and the singlet pattern for protons of the methylene bridges in their 1 H NMR spectra.
In order to evaluate the potentially amplified antiradical activity of calixapap, it was compared with its monomer, paracetamol, as reference compound.The in-vitro free-radical scavenging activities of compounds were determined for 2,2-diphenyl-1-picrylhydrazyl radical (DPPH•) using our previously published procedure (7,8).The results of these tests are shown in Table 1 based on factor n as the number of DPPH• radicals quenched per antiradical molecules.The solutions of antiradicals were prepared in methanol.The stoichiometric factor n was calculated (for DPPH/Antiradical molar ratio = 4) by the following formula: n = (∆A 515 /ε 515 )/C where ∆A 515 = A 0 -A f is the absorbance difference between the initial and stationary state of DPPH• solution, and ε 515 = 11240 M -1 cm -1 (molar absorption coefficient at 515 nm assuming a purity of 95%), and C is the concentration of antiradical in cuvette at the initial moment of time.In fact, the stoichiometric factor n is the number of DPPH• radicals quenched per antiradical molecule and is characteristic of the radical inhibiting ability of scavenger.It is the best parameter for demonstration of the clustering effect on free-radical scavenging activity of the test compounds (11).
As shown in the Table 1, the stoichiometry factor n (the number of free-radicals quenched per antiradical molecule) for calixapap is more than the rest of n values for APAP, calixtyrosol and DHPM cluster (Figure 1).It means that, DHPM cluster (Figure 1).It means that, calixapap is more potent than the mentioned antiradicals for scavenging free-radicals.As shown in Figure 1, paracetamol or APAP can be considered as ¼ of the chalice-shaped cyclic tetramer (calixapap).Calixarene-based cluster of acetaminophen calixapap is more potent than the mentioned antiradicals for scavenging free-radicals.As shown in Figure 1, paracetamol or APAP can be considered as ¼ of the chalice-shaped cyclic tetramer (calixapap).
Compared to acetaminophen, the enhanced antiradical activity (~ 10-fold) of calixapap can be explained by clustering effect, probably associated with the multivalency, spatial preorganization, and the synergistic effect of four embedded paracetamol units.In addition, the presence of methylene bridges (ortho-position) as bulky groups (Figure 1) maybe increase the electron density on the hydroxyl group as well as its hydrogen bonding at the lower rim of calixapap which led to stabilization of the phenoxy-radical in the structure of antiradical.All these have positive effects to reduce the rate of possible propagation reactions (7).
In summary, the present work describes the first example of calixarene-based paracetamol cluster possessing efficient and amplified freeradical scavenging activity (~ 10-fold) due to its synergistic effect of cluster arms.In fact, the most popular pain-killer drug, acetaminophen, can be considered as ¼ of chalice-shaped cyclic tetramer (calixapap).

4
and washed with water to give white solid.Crystallization from DMF gave compound 3 as white crystals.

Figure 1 .
Figure 1.Structural comparison of APAP and calixapap and two other synthetic calixarenebased antiradicals.

Figure 1 .
Figure 1.Structural comparison of APAP and calixapap and two other synthetic calixarene-based antiradicals.